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SIRT1 is a regulator of autophagy: Implications for the progression and treatment of myocardial ischemia-reperfusion

Xiaoqing Ding, Chenyu Zhu, Wenhong Wang, Mengying Li, Chun-Wei Ma, Binghong Gao

2023Pharmacological Research148 citationsDOIOpen Access PDF

Abstract

)-dependent histone deacetylase. It is involved in the regulation of various pathophysiological processes, including cell proliferation, survival, differentiation, autophagy, and oxidative stress. Therapeutic activation of SIRT1 protects the heart and cardiomyocytes from pathology-related stress, particularly myocardial ischemia/reperfusion (I/R). Autophagy is an important metabolic pathway for cell survival during energy or nutrient deficiency, hypoxia, or oxidative stress. Autophagy is a double-edged sword in myocardial I/R injury. The activation of autophagy during the ischemic phase removes excess metabolic waste and helps ensure cardiomyocyte survival, whereas excessive autophagy during reperfusion depletes the cellular components and leads to autophagic cell death. Increasing research on I/R injury has indicated that SIRT1 is involved in the process of autophagy and regulates myocardial I/R. SIRT1 regulates autophagy through various pathways, such as the deacetylation of FOXOs, ATGs, and LC3. Recent studies have confirmed that SIRT1-mediated autophagy plays different roles at different stages of myocardial I/R injury. By targeting the mechanism of SIRT1-mediated autophagy at different stages of I/R injury, new small-molecule drugs, miRNA activators, or blockers can be developed. For example, resveratrol, sevoflurane, quercetin, and melatonin in the ischemic stage, coptisine, curcumin, berberine, and some miRNAs during reperfusion, were involved in regulating the SIRT1-autophagy axis, exerting a cardioprotective effect. Here, we summarize the possible mechanisms of autophagy regulation by SIRT1 in myocardial I/R injury and the related molecular drug applications to identify strategies for treating myocardial I/R injury.

Topics & Concepts

AutophagySirtuin 1ResveratrolReperfusion injuryCell biologySIRT3Programmed cell deathIschemiaSirtuinChemistryPharmacologyOxidative stressBiologyNAD+ kinaseCancer researchMedicineApoptosisBiochemistryInternal medicineDownregulation and upregulationEnzymeGeneAutophagy in Disease and TherapySirtuins and Resveratrol in MedicineCalcium signaling and nucleotide metabolism